Mold for and method of molding foam rubber strips and the like



I6, 1954 E H s r AL 2,668,987

' MOLDING FOAM MOLD FOR AND METHOD, OF

RUBBER STRIPS AND THE LIKE Filed Oct. 21, 1950 v 2 Sheets-Sheet 1 IN Vf/V T 055 Jy: 6 Mk/MNMM 15% Tiff/H AIME/Vim E. P. HARRIS ET AL 2,668,987 MOLD FOR AND METHOD OF MOLDING FOAM RUBBER STRIPS AND THE LIKE Feb. 16, 1954 2 Sheets-Sheet 2 Filed Oct. 21, 1950 Iiilllliil 5% P mm N M I 7 No M fl m M .M U m f H Patented Feb. 16, 1954 UNITED STATES PATENT OFFICE MOLD FOR, AND METHOD MOLDING iFOAM RUBBER STRIPS AND THE LIKE Edward "P. .:Harris and Frederick W. Sampson, -Dayton, lhio, assignorsato General Motors Cor- 1 poration,;Detroit,-;Mich.,;.a; corporation 50f; Delaare Applicatiolr'october 21, 1950, -SerialN 0:19;;444

' .ll-ifl laims. I (Gl...-18--36) t='Ihist inventionrrelates to a moldi'for'and a conitinuous metho'd of: making: an elongated strip r of :vmoldable'materials, especially from foameda'latex :*or*other materials which:are;iniafiuidfoamy con- *dition: attzthe :.time of :"filling I the mold cavities 1 therewith;

Ordinarily when injecting'foamed latex or-simillar 'fluidffoamy molding materials into an elon- :="ga-ted'mold'cavityhavinga relatively narrow cross section, itrhasben' founddiflicult to fill the relapressure in ther-material from end to en'dof the *cavity. f Thisis' due-to the' tact thatw-henafoamed latex compound is: forced at relatively low pressures thr-u a:narrowsection:or relatively restricted wcavity'to form anelongated molded strip, o-f-say, IO ieet irr length,the internal pressure the =fillsd material will vary considerablyfrom a max-imum at the-pointin" the mold"cavityadjacentthe inj ectionmozzle' to -a minimumat the pointinthe I cavity offurthest'flow of the material. Variation in internal pressures in: the' material along the l'eng'th' of the'cavitywill or course cause a 'sim'ilar the mold cavity *at a "sub's-tantia'lly constant desired l'ow'pressure while simultaneously relatively moving sai'd nozzle' along the' -length -of the mold "'cavity. Thus an even distribution of the -foamy material thruout the cavity length can be: readily obtained'atanydesired low internal pressure' in.

- the material.

' Another object 'is' to provide a continuous "methddofmol'cling strips wherein-an endlessfi'exible mold of "flexible rubber-like 'm-aterial contmuouslymoves'past therelativelystationary filling nozzle and is simultaneously z-progressively fil-led with =the -'foamymaterial flowing from said "*Il-OZZIGfllIGCbIY into-themoldcavity. 'I he-en'dless =*-moldhas a continuous-longitudinal;split'lea'ding into its :m'old oav ity' aridthe relatively stationaryill-ling nozzle=extends thruasaid split directly into the-imoldi cavity while;the:'rnaterial'conduitilead- I to; said. nozzle passes:alongg' thrustheonened lit wfiilf thesmold movestrelative thereto:

- thruoutits length". iimthedrawings- Will now be described; Cavity :mold having 'means for: retaining in placewithin the-mold cavity a continuous reinforcing: insert which passes thru' the split in the mold and into the mold cavity adjacent the fillingnozzle.

Another object" is to provide such a splitflexible mold having mutually. interlocking yieldable portions on the two opposed edges of the dividing *split therein, .1 which: 'portions interlock by being forced together to normally retain said mold close'd'alongisai'dsplit.

Further-"objects and: advantages of the present invention will beapparent from the following de- :scription, reference being had to the accompanying "drawings wherein a preferred embodiment of the present invention is clea'rlyshown;

' In the drawings:

Figsl is a perspective view ofpart of the apparatus: ofthis invention-and shows how' the endless split flexible mold isprogressively flexed open along its length to=-permit the filling nozzle and rein-forcing wireto pass into themoldcavity while "the mold" continues to travel.

Fig. 2 is aperspective view of another portion of the apparatusof Fig. 1, and shows how the endless flex-ible mold is progressively flexed open along it's length to permit the cured molded strip to pass out of themoldcavity while the mold continues to travel.

Fig. 3 shows, in part, a longitudinal section thru the portion of the flexible mold shown in Fig. 0 1, and illustrates how the" reinforcing wire and the foamy-molding-material continuously enters the mold-cavity in the mov'ing'fiexible mold.

rag-=4- is' a transverse section takenon line" 44 of 'Fig. -3,-and shows the mold fully closed immediatel'y after it is progressively filled with the mold- 1 ing material.

'"Fig. 5 is taken on' li-neI5-5 of-Fig. 3,- and shows how the moving flexible 'mold is v progressively flexed open" as it passes around the rollers used forthis purpose;

Figs; Sand 7 are detail 'views of thereinforcing wire insert embedded in the" molded strip. "Fig. 6

--is-'a planv-iew-and Fig. 7 an edge view of said wire insert;

ISimi'I'ar' reference-characters refer to similar parts thruoutathe several-views.

J'I'he' relatively long endless flex-ible mold It! is =madenotrfl'exibl'ewrubber: or other suitable rubberlileegmaterial and' 'has a 'mold cavity H of the desired :cross' --section extending continuously The a-ipeciflc form illustrated l 'hhas la'icross section "designed? to mold: asponge lanother'b il m'w fi fi hw plit flexibleizfiswulaber:automobile door sealingnstr-ip of the-type disclosed in Ser. No. 164,738, filed May 27, 1950, by Edward P. Harris, now Patent No. 2,579,072, owned by the assignee of this present application. The cross section of flexible mold it is shown locked in closed position in Fig. 4 and in laterallyfiexed-open position in Fig. 5. Mold it] has therein a continuous longitudinal split I2 extending inwardly to the mold cavity H, which thus substantially divides the mold section into two opposed relatively movable portions or halves i3 and M which are suificiently thick and rigid to be substantially bodily spread apart by distorting the relatively thin and flexible hinge portion of mold Ii). The mold half I3 is shown as having a continuous interlocking projection 56, located at the dividing split I2 which can be forced into a correspondingly shaped recess I? in mold half I4 due to a slight yieldability of these parts, and thereby retain the two mold halves It and I4 substantially locked in closed position as shown in Fig. 4. However this interlocking of parts I5 and I! should not be so strong as to prevent mold halves I3 and I4 from being progressively pulled apart at the dividing split IZ when said halves I3 and I4 are spread apart (by hinging about hinge portion I5) by the mechanism shown in Figs. 2 and 5, or by other suitable mold-spreading mechanism.

The continuous wire reinforcing member 25 (see Fig. 6) is held clamped in proper position in the mold cavity II as follows. At the lower portion of mold cavity II the two mold halves l3 and I4 have two mutually opposed continuous projections 25 whose opposed end surfaces 25 are slightly yieldable and preferably are in pressure contact when the mold halves I3 and I5 are fully closed (see Fig. 4), but are spread apart when mold halves It and I4 are spread apart (as shown in Fig. 5). These continuous projections 25 when spread apart permit the series of longitudinally spaced spring tongues M on reinforcing wire 20 to pass therebetween, as later described herein, and then as the mold halves l3 and M close together the series of spring tongues H are clamped firmly between the slightly yieldable opposed end surfaces 25 of projections 25 as shown in Fig. 4. The lower tips 22 of spring tongues 2! contact the top surface of the hinge portion I5 and thus the main zig-zag portion of reinforcing wire 20 is properly vertically located above the bottom surface of the mold cavity it so as to be later embedded in the material molded in said cavity. The continuous longitudinal void 24 in mold it does not form part of the mold cavity H press directly against each other between the longitudinally spaced spring tongues 2| when the mold is closed (see Fig. i).

Mold Ii) has a continuous central groove I! on its outer surface within which the tread 3I on the tapered periphery of the exterior guide roller 35 rides as the travelling mold It) bends around roller 30 and is progressively spread open (see Figs. 3 and 5) The inner spreading roller 35 has a concave peripheral tread 36 (best shown in Fig. 5) which rides upon the upper surface of the flexible hinge portion [5 directly opposed to and'aligned with the rounded tread SI of roller 35. Thus as the travelling mold Ill passes between rollers 33) and 35 the flexible hinge portion 55 is squeezed between treads 3i and 35' and distorted thereby so as to maintain mold halves i3 and Hi spread apart as shown in' Figs. 1 and 5 over a substantial length of the travelling mold since the continuous projections 25 III. The longitudinal void 24 in mold it (see Fig. 4) is formed by two lateral slots 23 (see Fig. 5). Slots 23 define the length and thickness of the flexible hinge portion I5 of the mold and hence are so shaped as to provide the desired flexibility at hinge portion I5. It will be seen from Fig. 5 that these slots 23 also enable the wire-clamping projections to move out of the way so as to permit the inner roller 35 to pass therebetween when the mold halves I3 and I4 are spread apart. Of course as mold I0 moves continuously past the spreading rollers 38 and 35 and the distorting pressure on hinge portion I5 is thereby relieved mold halves I3 and I4 tend to progressively return toward their closed position as mold ill travels forward.

Now referring to Fig. 3, as mold I 0 travels continuously in the direction of the arrows thru the spreading rollers and and bends around roller 3i) as shown, the mold halves I3 and I4 remain spread apart for a short distance beyond the spreading rollers and the bend in the mold. This open distance is utilized to properly pass both the reinforcing wire 25 and the conduit 40 for the molding material directly into the mold cavity II. Conduit 40 leads from a supply II containing the flowable molding material laterally between the open edges of the continuous dividing split I2 of mold In to the outlet nozzle 42. When it is desired to fill cavity II with a minimum internal pressure within the filled cavity, the stationary outlet nozzle 42 delivers the molding material freely at substantially atmospheric pressure at the central portion of the cross section of mold cavity II and in the direction of travel of mold I0. Outlet nozzle 42 preferably extends longitudinally a sufficient distance within cavity II as to deliver the molding material into cavity II at a point where the mold halves I3 and I4 have come together, or nearly so, in order to minimize escape of the molding material thru the dividing split I2 at the pointof delivery. A stationary guide chute 43 for guiding the travelling reinforcing wire 20 is fixed in place at its delivery end to the under side of nozzle 42 so as to deliver the wire properly centered into mold cavity II with its longitudinal spaced depending spring tongues ZI thereon so guided in vertical position as to pass accurately between the clamping projections 25 on mold I0 and be successively clamped thereby as said clamping projections 25 are pressed together upon the full closing of mold halves I3 and I4. The endless mold I0 is driven continuously at a uniform speed by any suitable driving means and is guided by any suitable guides spaced along its length, such as the small guide rollers 32 on straight stretches thereof, and by relatively large guide sheaves to more gradually carry the mold l0 around curves, such as the relatively large guide sheave 33 shown in Fig. 3.

The mold halves I3 and M are guided and gradually forced into fully closed position first by the two opposed lateral rollers and finally by the two opposed lateral rollers 5| which press mold halve I3 and I4 together with such force as to cause the interlocking portions I6 and I! to nest and interlock together by a slight dis tortion thereof. The top roller 52 holds mold I0 bent down into its horizontal stretch after it passes thru spreader rollers 35 and 35, and of course also aids in closing mold halves I3 and Id. The interlocking portions I6 and I! may be made to interlock with sufiicient strength to withstand any internal pressure in mold cavity II during 5 ithwcuring of; foamedtslatexs compounds, ortother thermosetting compoundsrzwhich scan sbe-,set c:at -quite .low;:internaltpressnres. :I-Iowever wherever idesiredamold H? may bexvery"positively-held:closed v zbyssuitablyss-paced exterior-rollersr'rollingathereinfithe manner of rollers 1 50; 5|; and 52. Such retaining r rollers -"may be used-in a'ddition l tosrthe: interlocking ::portions tfisand; l-r! .:or :may 7 sbeaentirely substituted therefor.

After? mold I10" is filled with the imoldingflmaizterial. and fully closed 'asrillustratedrin "Figs." 1 sands itcpasses thru an elongated curing; chamwhenfiflrheated to the desired temperaturetopro- ..:gressively and continuously cure :thematerial; for the desired period :of time, which stimerperiodris determined by the" rate of. travel; Ofi'I'IIO'ldi l fltand :ithe. effective: length of. the: curing chamber 2&0;

l:After..-.curing1to the desired-:extentzmold l uemerges irom'curing-chamber 6B, andrthemo-ld .zhalves l3srand M areagain spreadnopen -at-..t'he-- 0 .dividingw. split I2 asvillustratedyin-.Fig; 2; in :order to permit: the cured strip W; to passcontinuously immathe mold while it continues to travelat its .;:.normal.speed; Mold It is positively guidedadiacentrthe exit of strip?!) byrollers 32', 56', 51', '"zand'. 52', all, of which rollers are similarly .ar-

ranged to the; similarly numbered. rollersshown itirrEig. 1,:asclearly shown in. Fig. 2. Asrinold ID masses .;from these guide rollers 32,v5t', -5 I and 452. itzis curved downwardly between spreader ;:rol1er.s 3B,; and-35' which function similarly to :spreaderrollersSilwand 35 respectivelyas dez-scribedaabove, and spread'themold halves l3 and ;M-'-wide apart and permit the cured strip into pass frommold Ifl atthe speed of travelof mold When mold halves l3 and I4 are thus spread "apart; the .wireeclamping "projections :25 separate wfromx-each other and so release their gripupon ithe wiretong-ues 2! in proper time for the cured stripldto pass from the mold. Strip 10 may 0 --be:-led--awayfrom the exit end-of mold Hi byany --,su-itable guiding means (not shown), :such' as a roller. or belt conveyor or the like.

The apparatus and method described above is particularly-suitable for making sponge rubber sstnips from foamed latex compounds. Such r-foamed latex compounds whenin an ungelled condition are very flowableand can abe xreadily .in-jected thru filling nozzletz at'aconstant rate -of.-flow.to progressively fill mold cavityll at a highly-uniform low pressure," to give an internal griressure within the filled mold cavit only sslightlyzabove atmospheric pressure. The interlnal; pressure within thewmolcl cavity needn-bes-no -higher. than thatirequired to insure the-complete filling of mold cavity Ii, for example-fromtoz. wto 8 oz. per square inchvdependent on-theViS- icosity of theioamed latexcompound. However ,ii grea-ter density, is desired in the finalcured v sponge 'rubber strip the moldvcavity lltmay; be;

,fi-lled; at such higher internal pressure as will -:compress the foamy compound before it gelszand rgiVe' a molded: product having the: desired. final udensity. after curing. In -all'cases the finals cured strip- Will have substantial-1ythe,v same-density from end to endt-hereof: due to the'uniformin- ;,terna'l,. pressure in the molding material thruout the length of mold cavity, whichxuniformity in tu rn isxdueto the factthat the injected'smaterial does riot-.fiow lengthwise-thru the elongatedunold: "cavity to any material extent.

The -ungelled readily v flowabl'e foamed latex -'compound as it flows from nozzle: 42fi' willrreadily =-now aroundand fully embed alt-portionsaof the of gelling. This insures accuratezrconformation I 5 130i? ill-16$B11055!iSECfiOIIJOfLthG zmolded stripzitol that :of;ztheremoldiscavitwsmce it. eliminates-histortion oft;anyasectionzofr:theistrip. after :gelling 1' thereof. fmztypical exampleaof zcuring conditions for such fioamed: latex strip is to :subj ectneach; portion -z'oflthe'sstrip toia: temperature ofr2129=rFxforaapetriodzofi twentycminutes: :Thezr-internal": pressure ini-the "material-While" curing? is' very; little, iii-any, aboveza'tmosph'eric :an'd'hence.:cambereadily connned by thevabove .describedi'flexible rubber'mold =IIO withouti materially" distorting :the cross sec- 'lttion'rof moldicavity H.

WIiilezzthea embodiments rofiithe presentinvenutioniconstitutenat. preferredrrform', it is to bo-understood ithat other ."forms .*.might ;be: adopted.

WhatLis: claimed istas'fo'llows:

.1. Inia method.forwmoldingelongatelstripsifrom xflowablei. foamy? material; the .steps comprising; .uprovi'ding. .an elongate mold having a I longitudinally extendingv slit? therein' which connectstwvith v lamelongate .moldtcavity'having the desired; cross section of: the strip'to be formed thereimprogres- :sively' 'hinging said mold open :at sai'd :xslit 'for :aopeningiarportiomonly'cof the cavity,-.:progressive ly inserting fiowablei foamy oompoundzinto said zcai ityaat fsaid' open portion, progressively closing the? moldscavityi-atasaid slit and, permitting .thetflowable' foamy material to cure andassume thexcrossisectional shape: of the mold cavity, progressively r removing the cured strip 'by prougressively"laterally spreading apart the "mold "portions at? the split therein totzpermit: the: cured strip to pass out' of themoldzcavitypand progresssivel'y: permitting? the rmold to close -and: resume itsvinherentaclosed"reusable for-m.

:2. In anmethodiof molding eIongate-stripsfrom flOWEblGE' foamy 'scompound thesteps-zcomprising; rprovi'din-g :axmold made from" ielastomeric 1 ma- .terialxan'd including an;'- elongate normally closed. cavity fhavin'g the r desired cross? section of l the 4:5 stripttochei formed: thereinrconnectedi to they .out-

a SldEPOfI the2molol by an elongate slit; progressively :hingedly opening. a portion ofzsaidtmol'dzzatisaid :aslitito expose: thecavity'therein;supplying"flow- -:ablerfoamy.r material to said: cavitywat'. said :open

'rportion, giprogressivelyclosing the mold cavity sands permitting the flowable foamy materialzto 'cure and: assume the cross sectional shape of rthe' moldicavitygprogressivelyremovingtthe cured strip by progressively laterally:- spreading:apart :therzmoldzzzportions at'thei split therein a to tpermit ithea ioured 'stripi'to "pass IOUtz'Of'thB mold cavity, rand? progressively :permitting the mold to "close -;andi" resumeritsi inherentmlosed :reusable? form;

3. In a method of molding elongatedustrips i. firomaal-ioainy compound: the-:- steps comprising:

;'-.providing rant elongated unitarynormally "a closed mold. having- 1a; continuous longitudinal split pleading; intoi the: elongated *cavity therein, pro- :gressively.- splitting -a-portiononly of the mold; to

l-'an ;open* position, wiilling said elongated mold 17 portion-while] moving said mold lengthwise relativatorsaid: nozzle, progressively elosingstheomold liorzrormingithe foamy-.compound to the-desired vasha lii 1- progressively 1 curing said zcompoundwin ssaidrmold, iprogressively snlitting agportion-lonly "reinforcing --wire= 20 which: extend v-withimmoldyws-rofitheamoldi removingrthe iormede strip: coon- 7 tinuously through the opening formed by the split portion, and then progressively permitting the mold to close and resume its inherent closed reusable form.

4. In a method of molding an elongate article from a flowable foamy compound, the steps comprising: providing a continuous flexible mold having a continuous normally closed split leading into a mold cavity which extends substantially from end to end thereof, progressively opening a portion only of said mold cavity at said split, filling said cavity progressively lengthwise by continuously flowing the flowable foamy compound directly therein through a filling nozzle into said split portion while the mold and nozzle are moving relative to one another, progressively closing the split portion thereby closing the mold cavity for forming the article, maintaining closed the filled length of elongated mold while the compound therein sets and is cured to the desired degree and forms a unitary molded article which will retain its molded cross section shape upon being removed from the mold, progressively removing the molded article by progressively laterally spreading apart the mold at the split to permit the molded article to pass continuously out of the mold cavity, and progressively permitting the mold to close and resume its inherent closed reusable form.

5. In a method of molding elongated strips from a fluid foamy compound, the steps comprising: providing an endless travelling unitary flexible mold of rubber-like material having a continuous longitudinal split connected with a longitudinally extending mold cavity therein, progressively bending the unitary flexible mold around a curve in its path of travel and laterally spreading apart the mold at said split while the mold passes around said curve to provide access to the mold cavity, flowing a flowable foamy compound into the mold cavity through said point of access to progressively and uniformly fill the cavity, progressively closing the mold immediately after the cavity is filled by flexing its laterally spread portions together at said split to form the strip, maintaining the filled length of the travelling mold closed while the compound therein is cured therein to the desired degree, progressively removing the cured strip lengthwise from the mold by progressively laterally spreading apart the mold at the split to permit the cured strip to pass out of the mold cavity, and then permitting the mold to close and resume its closed reusable form.

6. The method as claimed in claim including the added step of; progressively inserting a reenforcing element into said cavity substantially simultaneously with the flowing in of the foamy compound.

7. An endless mold of flexible rubber-like material for molding a continuous elongated strip from flowable foamy material comprising; a continuous flexible unitary normally closed mold of indeterminate length having a unitary continuous internal cavity of predetermined shape therein, a continuous longitudinal split being located so as to expose a portion of the internal cavity when the flexible mold is laterally flexed, mutually interlocking yieldable portions on the opposed edges of the split adapted to normally retain the edges of the split in substantially closed relation, mutually engaging surface portions within the cavity adapted to retain reinforcing elements for said strip, and means within said mold whereby the mold can be laterally flexed over a portion of its length so as to expose a portion of the internal cavity.

8. In a method of molding elongated strips from a flowable fluid compound which is capable of setting to a nonflowable condition, the steps comprising; providing a moving endless unitary flexible mold of rubber-like material having a continuous longitudinal split extending into a normally closed longitudinally extending mold cavity having a predetermined cross-section shape therein, progressively flexing a portion of said moving mold for causing said longitudinal split to open for exposing a portion of said mold cavity, flowing fluid unset compound into said mold cavity through an opened longitudinal split for progressively filling a moving length of said mold cavity, progressively closing said mold cavity by flexure of said mold, maintaining closed said length of moving mold cavity until the flowable unset fluid compound sets and forms a unitary strip having the cross-sectional shape of the mold cavity, and finally progressively removing said strip lengthwise from the mold cavity while said mold is progressively flexed and opened at a longitudinal split to permit said strip to pass lengthwise out of the mold cavity while said mold continues to move.

9. In a method of molding elongated strips from a flowable ungelled foamy compound which is capable of gelling, the steps comprising; providing a moving endless unitary flexible mold of rubber-like material having a continuous longitudinal split extending into a normally closed longitudinally extending mold cavity having a predetermined cross-sectional shape therein, progressively flexing a portion of said moving mold for causing said longitudinal split to open for exposing a portion of said mold cavity, flowing a flowable foamy ungelled compound into said mold cavity through an open longitudinal split for progressively filling a moving length of said mold cavity and substantially, simultaneously progressively inserting a reinforcing element into said cavity with the flowing in of the foamy compound, progressively closing said mold cavity by flexure of said mold, maintaining closed said length of moving mold cavity until the flowable foamy ungelled compound gels and forms a unitary reinforced strip having a crosssectional shape of the mold cavity and finally progressively removing said reinforced strip lengthwise from the mold cavity while said mold is progressively flexed and opened at a longitudinal split to permit said strip to pass lengthwise out of the mold cavity while said mold continues to move.

10. In a method of molding elongated strips from a flowable ungelled foamy compound which is capable of gelling the steps comprising; moving an endless unitary flexible mold of rubberlike material having a continuous longitudinal split extending into a normally closed longitudinally extending mold cavity having a, predetermined cross-sectional shape therein and having mutually interlocking yieldable portions on opposed edges of the split adapted to retain the edges thereof in a substantially closed relation, and mutually engaging surface portions within the cavity adapted to clamp and position reinforcing elements within said cavity, progressively flexing a portion of said moving mold for causing said mutually interlocking portions to be disengaged whereby said longitudinal split is opened for exposing a portion of said mold cavity, flowing a flowable ungelled foamy rubher-like compound into said mold cavity through said opened longitudinal split for progressively filling a moving length of said cavity and simultaneously progressively inserting a reinforcing element between the clamping elements of said mold cavity for positioning said reinforcing element relative to the ungelled flowable compound, progressively closing said mold cavity by flexure of said mold whereby said interlocking means are engaged and said reinforcing element is clamped and positioned relative to the mold cavity by said clamping means, maintaining closed said length of moving mold cavity until the flowing foamy ungelled compound gels and forms a unitary reinforced strip having the cross sectional strip of the mold cavity, and finally progressively flexing said mold for releasing said interlocking elements for opening said longitudinal split and unclamping said reinforcing elements while substantially simultaneously lengthwise removing said reinforced strip from said mold cavity through the split while said mold continues to move.

11. In a method of molding longitudinal strips from a flowable ungelled foamy compound which is capable of gelling the steps comprising, moving an endless unitary flexible mold of rubberlike material having a continuous longitudinal split having yieldable interlocking portions on opposed edges thereof and extending into a normally closed longitudinally extending mold cavity of predetermined cross-sectional shape, progressively flexing portions of said moving mold for disengaging said interlocking yieldable portions for opening said longitudinal split whereby a portion of said mold cavity is exposed, flowing a fiowable ungelled foamy compound into said mold cavity through said open longitudinal split for progressively filling a moving length of said mold cavity, progressively closing said mold cavity by flexure of said mold and interlocking of said yieldable portions, maintaining closed said length of moving mold cavity until the flowable foamy ungelled compound gels and forms a unitary strip having the cross-sectional shape of the mold cavity and finally progressively removing said strip lengthwise from the mold cavity while said mold is progressively flexed and the interlocking elements are disengaged for opening said longitudinal split to permit said strip to pass therethrough and pass lengthwise out of the mold cavity while said mold continues to move.

EDWARD P. HARRIS. FREDERICK W. SAMPSON.

References Cited in the file of this patent UNITED STATES PATENTS Number Name Date 775,540 McConnell Nov. 22, 1904 1,399,485 Johnson Dec. 6, 1921 1,949,226 Wallace Feb. 27, 1934 2,141,405 Randall Dec. 27, 1 38" 2,329,239 Banigan Sept. 14, 1943 2,395,920 Te Grotenhuis Mar. 5, 1946 2,538,406 Allen Jan. 16, 1951 

